Electric vehicle propulsion system and method utilizing solid-state rechargeable electrochemical cells

US 8,889,285 B2
Filed: 11/18/2013
Issued: 11/18/2014
Est. Priority Date: 04/01/2011
Status: Active Grant

First Claim

Patent Images

1. An energy storage apparatus comprising a plurality of solid state rechargeable battery cells configured to power an appliance, the apparatus comprising:

a substrate member comprising a surface region;

a stack of electrochemical cells configured overlying the surface region of the substrate member, each electrochemical cell formed overlying the surface of a thickness of material, said electrochemical cell having an overall thickness of less than 50 microns, each of said electrochemical cells comprising;

the thickness of material;

a positive electrode material comprised of a transition metal oxide or a transition metal phosphate, the positive electrode material characterized by a thickness between 0.5 micron and 50 microns;

a solid state layer of a ceramic, polymer, or glassy material configured for conducting lithium or magnesium ions during a charge and discharge process, the solid state layer characterized by a thickness between 0.1 micron and 5 microns; and

a negative electrode material configured for electrochemical insertion or plating of ions during the charge and discharge process, the negative electrode material characterized by a thickness between 0.5 micron and 50 microns; and

an electrically conductive material coupled with the positive electrode material and free from contact with the negative electrode material,wherein said layer of positive and negative electrode materials each have a total surface area greater than 0.5 meters,wherein the substrate member is made of at least a polymer, a metal, a semiconductor, or an insulator,whereupon the positive electrode material comprises a positive electrode layer;

the negative electrode material comprises a negative electrode layer;

the electrically conductive material comprising an electrically conductive layer, andwhereupon the plurality of electrochemical cells, each of the electrochemical cells comprising the positive electrode layer, the solid state layer, the negative electrode layer, are continuously wound or stacked.

View all claims

0 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A vehicle propulsion system comprising a plurality of solid state rechargeable battery cells configured to power a drivetrain. In accordance with once aspect of the invention, a transportation system that is powered at least in part by electricity stored in the form of rechargeable electrochemical cells. According to an embodiment of the present invention, these cells are combined in series and in parallel to form a pack that is regulated by charge and discharge control circuits that are programmed with algorithms to monitor state of charge, battery lifetime, and battery health.

89 Citations

View as Search Results

21 Claims

1. An energy storage apparatus comprising a plurality of solid state rechargeable battery cells configured to power an appliance, the apparatus comprising:
- a substrate member comprising a surface region;
  
  a stack of electrochemical cells configured overlying the surface region of the substrate member, each electrochemical cell formed overlying the surface of a thickness of material, said electrochemical cell having an overall thickness of less than 50 microns, each of said electrochemical cells comprising;
  
  the thickness of material;
  
  a positive electrode material comprised of a transition metal oxide or a transition metal phosphate, the positive electrode material characterized by a thickness between 0.5 micron and 50 microns;
  
  a solid state layer of a ceramic, polymer, or glassy material configured for conducting lithium or magnesium ions during a charge and discharge process, the solid state layer characterized by a thickness between 0.1 micron and 5 microns; and
  
  a negative electrode material configured for electrochemical insertion or plating of ions during the charge and discharge process, the negative electrode material characterized by a thickness between 0.5 micron and 50 microns; and
  
  an electrically conductive material coupled with the positive electrode material and free from contact with the negative electrode material,wherein said layer of positive and negative electrode materials each have a total surface area greater than 0.5 meters,wherein the substrate member is made of at least a polymer, a metal, a semiconductor, or an insulator,whereupon the positive electrode material comprises a positive electrode layer;
  
  the negative electrode material comprises a negative electrode layer;
  
  the electrically conductive material comprising an electrically conductive layer, andwhereupon the plurality of electrochemical cells, each of the electrochemical cells comprising the positive electrode layer, the solid state layer, the negative electrode layer, are continuously wound or stacked.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. The apparatus of claim 1, wherein said layers are stacked together and provided in a container that has an external surface area less than 1/100th the surface area of the electrochemical cells.
  - 3. The apparatus of claim 1, wherein said layers are wound into a container that has an external surface area less than 1/100th the surface area of the electrochemical cells.
  - 4. The apparatus of claim 1, wherein the aspect ratio of the uniform cathode material layer is greater than 500,000 when dividing the length of the longest axis by the length of the shortest axis.
  - 5. The apparatus of claim 1, wherein said layers are continuously wound or stacked at least 30 times.
  - 6. The apparatus of claim 1 wherein said battery cells have energy densities of no more than 50 Watt-hours per square meter of electrochemical cells.
  - 7. The apparatus of claim 1 wherein the substrate member comprises a polyethylene terephthalate (PET), a biaxxially oriented polypropylenefilm (BOPP), a polyethylene naphtahalate (PEN), a polyimide, polyester, a polypropylene, an acrylact, an arimide, or a metallic material which is less than 10 microns thick.
  - 8. The apparatus of claim 1 wherein said battery cells are free from solid electrolyte interface/interphase (SEI) layers.
  - 9. The apparatus of claim 1 wherein said negative electrode material comprises an lithium metal alloy such that the melting point of the alloy is greater than 150 degrees Celsius.
  - 10. The apparatus of claim 1 wherein said battery cells have specific energies of at least 300 Watt-hours per kilogram.
  - 11. The apparatus of claim 1 wherein said battery cells have energy densities of at least 700 Watt-hours per liter.
  - 12. The apparatus of claim 1 wherein said battery cells are capable of achieving at least 5,000 cycles while being cycled at 80% of the rated capacity and which have gravimetric energy densities of at least 250 Wh/kg.
  - 13. The apparatus of claim 1 wherein said appliance is selected from at least one of or more of at least a smartphone, a cellular phone, a radio or other portable communication device, a laptop computer, a tablet computer, a portable video game system, an MP3 player or other music player, a camera, a camcorder, an RC car, an unmanned aeroplane, an aeroplane, a vehicle, a robot, an underwater vehicle, a satellite, a GPS unit, a laser rangefinder, a flashlight, an electric street lighting, and other portable electronic devices.
  - 14. The apparatus of claim 1 further comprising a multicell, rechargeable solid state battery pack, the multi-cell rechargeable battery pack comprising a plurality of solid state rechargeable cells;
    - a first portion of said cells being connected in a series relationship; and
      
      a second portion of said cells being connected in a parallel relationship.
  - 15. The apparatus of claim 14 wherein said multicell, rechargeable solid state battery pack is comprised of a heat transfer system and one or more electronics controls configured to maintain an operating temperature range between 60 degrees Celsius and 200 degrees Celsius.
  - 16. The apparatus of claim 15 wherein the plurality of rechargeable cells comprises respective outermost portions of the plurality of rechargeable cells, each of the outermost portions is in proximity of less than 1 millimeter from each other.
  - 17. The apparatus of claim 13 wherein the multicell, rechargeable solid state battery pack is insulated by one or more materials that have thermal resistance with an R-value of at least 0.4 m²*K/(W*in).
  - 18. The apparatus of claim 1 further comprising a multicell, rechargeable solid state battery pack having the solid state rechargeable battery cells;
    - and a plurality of capacitors configured at least in serial or parallel to provide a higher net energy density than the plurality of capacitors alone or conventional particulate electrochemical cells without being combined with the solid state rechargeable battery cells, and wherein the multicell, rechargeable solid state battery pack is characterized by an energy density of at least 500 Watts per kilogram.
  - 19. The apparatus of claim 1 is provided within a vehicle that is powered by at least in part by the apparatus.
  - 20. The apparatus of claim 1 wherein the solid state rechargeable battery cells are configured in a wound or stacked structure;
    - and utilizing lithium or magnesium as a transport ion, the solid state rechargeable battery cells being configured in a format larger than 1 Amp-hour; and
      
      configured to be free from a solid-electrolyte interface layer;
      
      the solid state rechargeable battery cells being capable of greater than 80% capacity retention after more than 1000 cycles.

21. An energy storage apparatus comprising a plurality of solid state rechargeable battery cells configured to power an appliance, the apparatus comprising:
- a substrate member comprising a surface region;
  
  a stack of electrochemical cells configured overlying the surface region of the substrate member, each electrochemical cell formed overlying the surface of a thickness of material, said electrochemical cell having an overall thickness of less than 50 microns, each of said electrochemical cells comprising;
  
  the thickness of material;
  
  a positive electrode material comprised of a transition metal oxide or a transitionmetal phosphate, the positive electrode material characterized by a thickness between 0.5 micron and 50 microns;
  
  a solid state layer of a ceramic, polymer, or glassy material configured for conducting lithium or magnesium ions during a charge and discharge process, the solid state layer characterized by a thickness between 0.1 micron and 5 microns; and
  
  a negative electrode material configured for electrochemical insertion or plating of ions during the charge and discharge process, the negative electrode material characterized by a thickness between 0.5 micron and 50 microns; and
  
  an electrically conductive material coupled with the positive electrode material and free from contact with the negative electrode material,wherein said layer of positive and negative electrode materials each have a total surface area greater than 0.5 meters,wherein the substrate member is made of at least a polymer, a metal, a semiconductor, or an insulator,whereupon the positive electrode material comprises a positive electrode layer;
  
  the negative electrode material comprises a negative electrode layer;
  
  the electrically conductive material comprising an electrically conductive layer,whereupon the plurality of electrochemical cells, each of the electrochemical cells comprising the positive electrode layer, the solid state layer, the negative electrode layer, are continuously wound or stacked, andwherein said battery cells have specific energies of at least 300 Watt-hours per kilogram.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Sakti3, Inc
Original Assignee
Sakti3, Inc
Inventors
Sastry, Ann Marie, Albano, Fabio, Wang, Chia-Wei, Kruse, Robert, Lebrun, Jeffrey
Primary Examiner(s)
RHEE, JANE J

Application Number

US14/083,325
Publication Number

US 20140072837A1
Time in Patent Office

365 Days
Field of Search

429/161, 429/152
US Class Current

429/152
CPC Class Codes

B60L 50/64   Constructional details of b...

H01M 10/0431   Cells with wound or folded ...

H01M 10/052   Li-accumulators

H01M 10/0525   Rocking-chair batteries, i....

H01M 10/054   Accumulators with insertion...

H01M 10/0562   Solid materials

H01M 10/0565   Polymeric materials, e.g. g...

H01M 10/0587   of accumulators having only...

H01M 10/63   Control systems charging or...

H01M 10/658   by thermal insulation or sh...

H01M 16/00   Structural combinations of ...

H01M 2220/20   Batteries in motive systems...

H01M 2300/0068   inorganic

H01M 2300/0071   Oxides

H01M 2300/0082   Organic polymers

H01M 4/131   Electrodes based on mixed o...

H01M 4/136   Electrodes based on inorgan...

H01M 4/40   Alloys based on alkali metals

H01M 4/405   Alloys based on lithium

H01M 50/204   Racks, modules or packs for...

Y02E 60/10 : Energy storage using batteries

Y02P 70/50 : Manufacturing or production...

Y02T 10/70 : Energy storage systems for ...

View All

Electric vehicle propulsion system and method utilizing solid-state rechargeable electrochemical cells

First Claim

0 Assignments

0 Petitions

Accused Products

Abstract

89 Citations

21 Claims

Specification

Solutions

Use Cases

Quick Links

Electric vehicle propulsion system and method utilizing solid-state rechargeable electrochemical cells

First Claim

0 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

89 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links